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ASP.NET Web API Throttling handler is designed to control the rate of requests that clients can make to a Web API based on IP address, client API key and request route. WebApiThrottle is compatible with Web API v2 and can be installed via NuGet, the package is available atnuget.org/packages/WebApiThrottle.
Web API throttling can be configured using the built-in ThrottlePolicy
. You can set multiple limits for different scenarios like allowing an IP or Client to make a maximum number of calls per second, per minute, per hour or even per day. You can define these limits to address all requests made to an API or you can scope the limits to each API route.
The setup bellow will limit the number of requests originated from the same IP.
If from the same IP, in same second, you’ll make a call to api/values
and api/values/1
the last call will get blocked.
public static class WebApiConfig
{
public static void Register(HttpConfiguration config)
{
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = new ThrottlePolicy(perSecond: 1, perMinute: 20,
perHour: 200, perDay: 1500, perWeek: 3000)
{
IpThrottling = true
},
Repository = new CacheRepository()
});
}
}
If you are self-hosting WebApi with Owin, then you’ll have to switch to MemoryCacheRepository
that uses the runtime memory cache instead of CacheRepository
that uses ASP.NET cache.
public class Startup
{
public void Configuration(IAppBuilder appBuilder)
{
// Configure Web API for self-host.
HttpConfiguration config = new HttpConfiguration();
//Register throttling handler
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = new ThrottlePolicy(perSecond: 1, perMinute: 20,
perHour: 200, perDay: 1500, perWeek: 3000)
{
IpThrottling = true
},
Repository = new MemoryCacheRepository()
});
appBuilder.UseWebApi(config);
}
}
If, from the same IP, in the same second, you’ll make two calls to api/values
, the last call will get blocked.
But if in the same second you call api/values/1
too, the request will go through because it’s a different route.
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = new ThrottlePolicy(perSecond: 1, perMinute: 30)
{
IpThrottling = true,
EndpointThrottling = true
},
Repository = new CacheRepository()
});
If a client (identified by an unique API key) from the same IP, in the same second, makes two calls toapi/values
, then the last call will get blocked.
If you want to apply limits to clients regardless of their IPs then you should set IpThrottling to false.
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = new ThrottlePolicy(perSecond: 1, perMinute: 30)
{
IpThrottling = true,
ClientThrottling = true,
EndpointThrottling = true
},
Repository = new CacheRepository()
});
If requests are initiated from a white-listed IP or Client, then the throttling policy will not be applied and the requests will not get stored. The IP white-list supports IP v4 and v6 ranges like “192.168.0.0/24″, “fe80::/10″ and “192.168.0.0-192.168.0.255″ for more information check jsakamoto/ipaddressrange.
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = new ThrottlePolicy(perSecond: 2, perMinute: 60)
{
IpThrottling = true,
IpWhitelist = new List<string> { "::1", "192.168.0.0/24" },
ClientThrottling = true,
ClientWhitelist = new List<string> { "admin-key" }
},
Repository = new CacheRepository()
});
You can define custom limits for known IPs or Client Keys, these limits will override the default ones. Be aware that a custom limit will only work if you have defined a global counterpart.
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = new ThrottlePolicy(perSecond: 1, perMinute: 20, perHour: 200, perDay: 1500)
{
IpThrottling = true,
IpRules = new Dictionary<string, RateLimits>
{
{ "192.168.1.1", new RateLimits { PerSecond = 2 } },
{ "192.168.2.0/24", new RateLimits { PerMinute = 30 } }
},
ClientThrottling = true,
ClientRules = new Dictionary<string, RateLimits>
{
{ "api-client-key-1", new RateLimits { PerMinute = 40 } },
{ "api-client-key-9", new RateLimits { PerDay = 2000 } }
}
},
Repository = new CacheRepository()
});
You can also define custom limits for certain routes, these limits will override the default ones.
You can define endpoint rules by providing relative routes like api/entry/1
or just a URL segment like/entry/
.
The endpoint throttling engine will search for the expression you’ve provided in the absolute URI,
if the expression is contained in the request route then the rule will be applied.
If two or more rules match the same URI then the lower limit will be applied.
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = new ThrottlePolicy(perSecond: 1, perMinute: 20, perHour: 200)
{
IpThrottling = true,
ClientThrottling = true,
EndpointThrottling = true,
EndpointRules = new Dictionary<string, RateLimits>
{
{ "api/search",
new RateLimits { PerScond = 10, PerMinute = 100, PerHour = 1000 } }
}
},
Repository = new CacheRepository()
});
By default, rejected calls are not added to the throttle counter. If a client makes 3 requests per second
and you’ve set a limit of one call per second, the minute, hour and day counters will only record the first call, the one that wasn’t blocked.
If you want rejected requests to count towards the other limits, you’ll have to setStackBlockedRequests
to true.
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = new ThrottlePolicy(perSecond: 1, perMinute: 30)
{
IpThrottling = true,
ClientThrottling = true,
EndpointThrottling = true,
StackBlockedRequests = true
},
Repository = new CacheRepository()
});
WebApiThrottle comes with a custom configuration section that lets you define the throttle policy as xml.
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = ThrottlePolicy.FromStore(new PolicyConfigurationProvider()),
Repository = new CacheRepository()
});
Config example (policyType values are 1 – IP, 2 – ClientKey, 3 – Endpoint):
<configuration>
<configSections>
<section name="throttlePolicy"
type="WebApiThrottle.ThrottlePolicyConfiguration, WebApiThrottle" />
</configSections>
<throttlePolicy limitPerSecond="1"
limitPerMinute="10"
limitPerHour="30"
limitPerDay="300"
limitPerWeek ="1500"
ipThrottling="true"
clientThrottling="true"
endpointThrottling="true">
<rules>
<add policyType="1" entry="::1/10"
limitPerSecond="2"
limitPerMinute="15"/>
<add policyType="1" entry="192.168.2.1"
limitPerMinute="12" />
<add policyType="2" entry="api-client-key-1"
limitPerHour="60" />
<add policyType="3" entry="api/values"
limitPerDay="120" />
</rules>
<whitelists>
<add policyType="1" entry="127.0.0.1" />
<add policyType="1" entry="192.168.0.0/24" />
<add policyType="2" entry="api-admin-key" />
</whitelists>
</throttlePolicy>
</configuration>
By default, the ThrottlingHandler retrieves the client API key from the “Authorization-Token” request header value.
If your API key is stored differently, you can override the ThrottlingHandler.SetIndentity
function and specify your own retrieval method.
public class CustomThrottlingHandler : ThrottlingHandler
{
protected override RequestIndentity SetIndentity(HttpRequestMessage request)
{
return new RequestIndentity()
{
ClientKey = request.Headers.GetValues("Authorization-Key").First(),
ClientIp = base.GetClientIp(request).ToString(),
Endpoint = request.RequestUri.AbsolutePath
};
}
}
WebApiThrottle stores all request data in-memory using ASP.NET Cache when hosted in IIS or Runtime MemoryCache when self-hosted with Owin. If you want to change the storage to
Velocity, MemCache or a NoSQL database, all you have to do is create your own repository by implementing the IThrottleRepository interface.
public interface IThrottleRepository
{
bool Any(string id);
ThrottleCounter? FirstOrDefault(string id);
void Save(string id, ThrottleCounter throttleCounter, TimeSpan expirationTime);
void Remove(string id);
void Clear();
}
If you want to log throttled requests you’ll have to implement IThrottleLogger interface and provide it to the ThrottlingHandler.
public interface IThrottleLogger
{
void Log(ThrottleLogEntry entry);
}
Logging implementation example with ITraceWriter
public class TracingThrottleLogger : IThrottleLogger
{
private readonly ITraceWriter traceWriter;
public TracingThrottleLogger(ITraceWriter traceWriter)
{
this.traceWriter = traceWriter;
}
public void Log(ThrottleLogEntry entry)
{
if (null != traceWriter)
{
traceWriter.Info(entry.Request, "WebApiThrottle",
"{0} Request {1} from {2} has been throttled (blocked), quota {3}/{4} exceeded by {5}",
entry.LogDate,
entry.RequestId,
entry.ClientIp,
entry.RateLimit,
entry.RateLimitPeriod,
entry.TotalRequests);
}
}
}
Logging usage example with SystemDiagnosticsTraceWriter
var traceWriter = new SystemDiagnosticsTraceWriter()
{
IsVerbose = true
};
config.Services.Replace(typeof(ITraceWriter), traceWriter);
config.EnableSystemDiagnosticsTracing();
config.MessageHandlers.Add(new ThrottlingHandler()
{
Policy = new ThrottlePolicy(perSecond: 1, perMinute: 30)
{
IpThrottling = true,
ClientThrottling = true,
EndpointThrottling = true
},
Repository = new CacheRepository(),
Logger = new TracingThrottleLogger()
});
WebApiThrottle is open sourced and MIT licensed, the project is hosted on GitHub atgithub.com/stefanprodan/WebApiThrottle, for questions regarding throttling or any problems you’ve encounter please submit an issue on GitHub.
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原文地址:http://www.cnblogs.com/rongfengliang/p/4666244.html